Abstract

Calves are born hypogammaglobulinemic; thus, the newborn calf's immune defense relies on the ingestion and absorption of colostrum, which provides energy, immunoglobulins, immune cells, and cytokines to the newborn calf. A heat treatment applied to colostrum for 60 min at 60°C has been found to be effective at reducing the total bacterial count while preserving the colostrum IgG levels. The objective of this work was to perform a meta-analysis on the association between the characteristics of heat-treated colostrum and the concentration of colostrum IgG, serum IgG concentration, and serum total protein (STP). A meta-analysis was carried out based on existing peer-reviewed literature. Publications comparing colostrum IgG, serum IgG, and STP for heat-treated or raw frozen colostrum were included. The different heating temperatures applied to the colostrum were divided into 2 subgroups: high temperature (HT; >60°C) and low temperature (LT; ≤60°C). Twelve studies, including 21 trials, met the inclusion criteria for colostrum IgG concentration. The results indicated decreases in colostrum IgG by 20.6 g/L [95% confidence interval (CI) = 11.8-29.4] for HT and 5.38 g/L (95% CI = 2.9-7.8) for LT when colostrum was heat-treated compared with raw or frozen colostrum. Heterogeneity was high to moderate (I2 = 82% for HT and 65% for LT). The heat treatment of colostrum was also associated with a nonsignificant decrease in serum IgG by 3.40 g/L for HT (95% CI = 7.54-0.74) but a significant increase in serum IgG by 2.65 g/L for LT (95% CI = 1.51-3.79). The regression model indicated that heterogeneity was not explained by any moderators. The heat treatment of colostrum was also associated with a significant increase in STP by 0.21 g/dL for LT (95% CI = 0.07-0.35). In conclusion, the present work demonstrated that the heat treatment of colostrum ≤60°C decreased colostrum IgG by 5.38 g/L for LT and increased serum IgG by 2.65 g/L and STP by 0.21 g/dL. When compared with the range of values observed in the field for serum IgG, the present results are of high interest for the cattle industry. Because immune colostrum benefits also include cytokines and immune cells, further work is required to evaluate the effect of colostrum heat treatment on these 2 immune components of colostrum.

Highlights

  • Calves are born hypogammaglobulinemic due to syndesmoplacentation (Noakes, 2009)

  • When compared with the range of values observed in the field for serum IgG, the present results are of high interest for the cattle industry

  • Because immune colostrum benefits include cytokines and immune cells, further work is required to evaluate the effect of colostrum heat treatment on these 2 immune components of colostrum

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Summary

Introduction

Calves are born hypogammaglobulinemic due to syndesmoplacentation (Noakes, 2009). the newborn calf immune defense relies on ingestion and absorption of colostrum immunoglobulins. Thanks to its specific composition, colostrum provides energy, immunoglobulins, immune cells, and cytokines to the newborn calf. The passive immunity provided by colostrum to the calf is evaluated as immunoglobulin concentration in the calf blood serum after 7 to 10 d of colostrum feeding (Godden 2008). Calf serum total proteins (STP) are useful to evaluate the passive transfer of immunity (Thornhill et al, 2015). Failure of passive immunity transfer is associated with higher risks of mortality, respiratory diseases, diarrhea, and septicemia (Raboisson et al, 2016). One case of failure of passive immunity transfer has been assessed to cost between €60 and €120 per calf (Raboisson et al, 2016)

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